ladybird/Userland/Libraries/LibWasm/AbstractMachine/BytecodeInterpreter.h
Diego Frias f5326f1747 LibWasm: Implement rest of SIMD load/store instructions
Also implement `v128.any_true`.
2024-07-15 09:58:04 -06:00

115 lines
4.4 KiB
C++

/*
* Copyright (c) 2021, Ali Mohammad Pur <mpfard@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/StackInfo.h>
#include <LibWasm/AbstractMachine/Configuration.h>
#include <LibWasm/AbstractMachine/Interpreter.h>
namespace Wasm {
struct BytecodeInterpreter : public Interpreter {
explicit BytecodeInterpreter(StackInfo const& stack_info)
: m_stack_info(stack_info)
{
}
virtual void interpret(Configuration&) override;
virtual ~BytecodeInterpreter() override = default;
virtual bool did_trap() const override { return !m_trap.has<Empty>(); }
virtual ByteString trap_reason() const override
{
return m_trap.visit(
[](Empty) -> ByteString { VERIFY_NOT_REACHED(); },
[](Trap const& trap) { return trap.reason; },
[](JS::Completion const& completion) { return completion.value()->to_string_without_side_effects().to_byte_string(); });
}
virtual void clear_trap() override { m_trap = Empty {}; }
struct CallFrameHandle {
explicit CallFrameHandle(BytecodeInterpreter& interpreter, Configuration& configuration)
: m_configuration_handle(configuration)
, m_interpreter(interpreter)
{
}
~CallFrameHandle() = default;
Configuration::CallFrameHandle m_configuration_handle;
BytecodeInterpreter& m_interpreter;
};
protected:
virtual void interpret(Configuration&, InstructionPointer&, Instruction const&);
void branch_to_label(Configuration&, LabelIndex);
template<typename ReadT, typename PushT>
void load_and_push(Configuration&, Instruction const&);
template<typename PopT, typename StoreT>
void pop_and_store(Configuration&, Instruction const&);
template<size_t N>
void pop_and_store_lane_n(Configuration&, Instruction const&);
template<size_t M, size_t N, template<typename> typename SetSign>
void load_and_push_mxn(Configuration&, Instruction const&);
template<size_t N>
void load_and_push_lane_n(Configuration&, Instruction const&);
template<size_t N>
void load_and_push_zero_n(Configuration&, Instruction const&);
template<size_t M>
void load_and_push_m_splat(Configuration&, Instruction const&);
template<size_t M, template<size_t> typename NativeType>
void set_top_m_splat(Configuration&, NativeType<M>);
template<size_t M, template<size_t> typename NativeType>
void pop_and_push_m_splat(Configuration&, Instruction const&);
template<typename M, template<typename> typename SetSign, typename VectorType = Native128ByteVectorOf<M, SetSign>>
Optional<VectorType> pop_vector(Configuration&);
template<typename M, template<typename> typename SetSign, typename VectorType = Native128ByteVectorOf<M, SetSign>>
Optional<VectorType> peek_vector(Configuration&);
void store_to_memory(Configuration&, Instruction const&, ReadonlyBytes data, u32 base);
void call_address(Configuration&, FunctionAddress);
template<typename PopTypeLHS, typename PushType, typename Operator, typename PopTypeRHS = PopTypeLHS, typename... Args>
void binary_numeric_operation(Configuration&, Args&&...);
template<typename PopType, typename PushType, typename Operator, typename... Args>
void unary_operation(Configuration&, Args&&...);
template<typename V, typename T>
MakeUnsigned<T> checked_unsigned_truncate(V);
template<typename V, typename T>
MakeSigned<T> checked_signed_truncate(V);
template<typename T>
T read_value(ReadonlyBytes data);
Vector<Value> pop_values(Configuration& configuration, size_t count);
ALWAYS_INLINE bool trap_if_not(bool value, StringView reason)
{
if (!value)
m_trap = Trap { reason };
return !m_trap.has<Empty>();
}
Variant<Trap, JS::Completion, Empty> m_trap;
StackInfo const& m_stack_info;
};
struct DebuggerBytecodeInterpreter : public BytecodeInterpreter {
DebuggerBytecodeInterpreter(StackInfo const& stack_info)
: BytecodeInterpreter(stack_info)
{
}
virtual ~DebuggerBytecodeInterpreter() override = default;
Function<bool(Configuration&, InstructionPointer&, Instruction const&)> pre_interpret_hook;
Function<bool(Configuration&, InstructionPointer&, Instruction const&, Interpreter const&)> post_interpret_hook;
private:
virtual void interpret(Configuration&, InstructionPointer&, Instruction const&) override;
};
}